Reservoir quality evaluation of the Narimba Formation in Bass Basin,Australia:Implications from petrophysical analysis,sedimentological features,capillary pressure and wetting fluid saturation

The evaluation of reservoir quality was accomplished on the Late Paleocene to Early Eocene Narimba Formation in Bass Basin,Australia.This study involved combination methods such as petrophysical analysis,petrography and sedimentological studies,reservoir quality and fluid flow units from derivative parameters,and capillary pressure and wetting fluid saturation relationship.Textural and diagenetic features are affecting the reservoir quality.Cementation,compaction,and presence of clay minerals such as kaolinite are found to reduce the quality while dissolution and secondary porosity are noticed to improve it.It is believed that the Narimba Formation is a potential reservoir with a wide range of porosity and permeability.Porosity ranges from 3.1%to 25.4%with a mean of 15.84%,while permeability ranges between 0.01 mD and 510 mD,with a mean of 31.05 mD.Based on the heterogenous lithology,the formation has been categorized into five groups based on permeability variations.Group I showed an excellent to good quality reservoir with coarse grains.The impacts of both textural and diagenetic features improve the reservoir and producing higher reservoir quality index(RQI)and flow zone indicators(FZI)as well as mostly mega pores.The non-wetting fluid migration has the higher possibility to flow in the formation while displacement pressure recorded as zero.Group II showed a fair quality reservoir with lower petrophysical properties in macro pores.The irreducible water saturation is increasing while the textural and digenetic properties are still enhancing the reservoir quality.Group III reflects lower quality reservoir with mostly macro pores and higher displacement pressure.It may indicate smaller grain size and increasing amount of cement and clay minerals.Group IV,and V are interpreted as a poor-quality reservoir that has lower RQI and FZI.The textural and digenetic features are negatively affecting the reservoir and are leading to smaller pore size and pore throat radii(r35)values to be within the range of macro,meso-,micro-,and nano pores.The capillary displacement pressure curves of the three groups show increases reaching the maximum value of 400 psia in group V.Agreement with the classification of permeability,r35 values,and pore type can be used in identifying the quality of reservoir.

Experimental analysis of matrix moveable oil saturation in tight sandstone reservoirs of the south Ordos Basin,China

Tight oil reservoirs in the south Ordos Basin are characterized by fractured,heterogeneous oil-bearing strata(an oil saturation of less than 55%on average),normal pressure(0.8±)and extra-low permeability(less than 0.3 mD).In the Chang 8 tight sandstone reservoir in Honghe oilfield,micro-and nanopores,especially those with a pore-throat radius of less than 1 mm,account for more than 90%.Fluid flow in the matrix is non-linear and crude oil flow rates are very low under normal pressure gradients.An improved understanding of oil mobility in a tight matrix is key to further development of normalpressure tight-oil resources in the continental basin.In this study,constant-velocity and high-pressure mercury injection experiments were conducted using samples of typical tight sandstone cores obtained from the south of Ordos Basin.A new method for reconstructing the full-scale pore-throat distribution characteristics of tight sandstone reservoirs was established successfully,based on which multistage centrifugal tests,tests of low-pressure differential displacement of oil by water,and nuclear magnetic resonance tests were conducted in order to obtain the distribution characteristics of moveable fluid in different pores.The moveable oil saturation(MOS)and degree of oil recovery(i.e.ratio of accumulative oil production to producing geologic reserves)of the core samples under different differential pressures for displacement were determined.As for the tight oil reservoirs in the south Ordos Basin,the moveable fluids are mainly stored in sub-micron(0.10-0.5 mm)pores.For Type I reservoirs(k>0.1 mD),the volume percentage of moveable fluid in pores with a radius larger than 0.5 mm is relatively high(greater than 40%).The degree of oil recovery of water flooding serves as the basis for forecasting recoverable reserves for tight oil reservoirs.Recoverable reserves under water flooding,mainly occur in pores with a radius greater than 0.5 mm.The contribution of Type I reserves to oil production is observed to be greater than 60%,and the degree of oil recovery reaches up to 17.1%.These results help improve our understanding on the evaluation and classification of Chang 8 tight sandstone reservoirs in Honghe oilfield and serve as theoretical basis for pilot tests to explore effective injection media and development methods to improve the matrix-driven pressure differences and displacement efficiency for oil.

Investigation of Electrical Parameters of Fresh Water and Produced Mixed Injection in High-Salinity Reservoirs

Assuming a reservoir with a typical salt-lake background in the Qaidam Basin as a testbed,in this study the var-iation law of the rock electrical parameters has been determined through water displacement experiments with different salinities.As made evident by the results,the saturation index increases with the degree of water injec-tion.When the salinity of the injected water is lower than 80000 ppm,the resistivity of the rock samplefirst decreases,then it remains almost constant in an intermediate stage,andfinally it grows,thereby giving rise to a‘U’profile behavior.As the salinity decreases,the water saturation corresponding to the inflection point of the resistivity becomes lower,thereby leading to a wider‘U’type range and a higher terminal resistivity.For dif-ferent samples,higher initial resistivity of the sample in the oil-bearing state,and higher resistivity after low-sali-nity water washing are obtained when a thicker lithology is considered.

A new model for predicting irreducible water saturation in tight gas reservoirs

The irreducible water saturation(Swir) is a significant parameter for relative permeability prediction and initial hydrocarbon reserves estimation.However,the complex pore structures of the tight rocks and multiple factors of the formation conditions make the parameter difficult to be accurately predicted by the conventional methods in tight gas reservoirs.In this study,a new model was derived to calculate Swir based on the capillary model and the fractal theory.The model incorporated different types of immobile water and considered the stress effect.The dead or stationary water(DSW) was considered in this model,which described the phenomena of water trapped in the dead-end pores due to detour flow and complex pore structures.The water film,stress effect and formation temperature were also considered in the proposed model.The results calculated by the proposed model are in a good agreement with the experimental data.This proves that for tight sandstone gas reservoirs the Swir calculated from the new model is more accurate.The irreducible water saturation calculated from the new model reveals that Swir is controlled by the critical capillary radius,DSW coefficient,effective stress and formation temperature.

A modified Hoek-Brown failure criterion considering the damage to reservoir bank slope rocks under water saturation-dehydration circulation

After water is impounded in a reservoir,rock mass in the hydro-fluctuation belt of the reservoir bank slope is subject to water saturationdehydration circulation(WSDC). To quantify the rate of change of rock mechanical properties, samples from the Longtan dam area were measured with uniaxial compression tests after different numbers(1,5, 10, 15, and 20) of simulated WSDC cycles. Based on the curves derived from these tests, a modified HoekBrown failure criterion was proposed, in which a new parameter was introduced to model the cumulative damage to rocks after WSDC. A case of an engineering application was analyzed, and the results showed that the modified Hoek-Brown failure criterion is useful.Under similar WSDC-influenced engineering and geological conditions, rock mass strength parameters required for analysis and evaluation of rock slope stability can be estimated according to this modified Hoek-Brown failure criterion.

Identification of the Quaternary low gas-saturation reservoirs in the Sanhu area of the Qaidam Basin,China

Low gas-saturation reservoirs are gas bearing intervals whose gas saturation is less than 47%. They are common in the Quaternary of the Sanhu area in the Qaidam Basin.Due to the complex genesis mechanisms and special geological characteristics,the logging curves of low gas-saturation reservoirs are characterized by ambiguity and diversity,namely without significant log response characteristics. Therefore,it is particularly difficult to identify the low gas-saturation reservoirs in the study area.In addition,the traditional methods such as using the relations among lithology,electrical property,physical property and gas bearing property,as well as their threshold values,can not effectively identify low gas-saturation reservoirs.To solve this problem,we adopt the decision tree,support vector machine and rough set methods to establish a predictive model of low gas-saturation reservoirs,which is capable of classifying a mass of multi-dimensional and fuzzy data.According to the transparency of learning processes and the understandability of learning results,the predictive model was also revised by absorbing the actual reservoir characteristics.Practical applications indicate that the predictive model is effective in identifying low gas-saturation reservoirs in the study area.

Enhanced history matching process by incorporation of saturation logs as model selection criteria

This paper proposes a methodology for an alternative history matching process enhanced by the incorporation of a simplified binary interpretation of reservoir saturation logs(RST) as objective function. Incorporating fluids saturation logs during the history matching phase unlocks the possibility to adjust or select models that better represent the near wellbore waterfront movement, which is particularly important for uncertainty mitigation during future well interference assessments in water driven reservoirs. For the purposes of this study, a semi-synthetic open-source reservoir model was used as base case to evaluate the proposed methodology. The reservoir model represents a water driven, highly heterogenous sandstone reservoir from Namorado field in Brazil. To effectively compare the proposed methodology against the conventional methods, a commercial reservoir simulator was used in combination with a state-of-the-art benchmarking workflow based on the Big LoopTMapproach. A well-known group of binary metrics were evaluated to be used as the objective function, and the Matthew correlation coefficient(MCC) has been proved to offer the best results when using binary data from water saturation logs. History matching results obtained with the proposed methodology allowed the selection of a more reliable group of reservoir models,especially for cases with high heterogeneity. The methodology also offers additional information and understanding of sweep behaviour behind the well casing at specific production zones, thus revealing full model potential to define new wells and reservoir development opportunities.

Experimental Research on the Millimeter-Scale Distribution of Oil in Heterogeneous Reservoirs

Oil saturation is a critical parameter when designing oil field development plans.This study focuses on the change of oil saturation during water flooding.Particularly,a meter-level artificial model is used to conduct relevant experiments on the basis of similarity principles and taking into account the layer geological characteristics of the reservoir.The displacement experiment’s total recovery rate is 41.35%.The changes in the remaining oil saturation at a millimeter-scale are examined using medical spiral computer tomography principles.In all experimental stages,regions exists where the oil saturation decline is more than 10.0%.The shrinkage percentage is 20.70%in the horizontal well production stage.The oil saturation reduction in other parts is less than 10.0%,and there are regions where the oil saturation increases in the conventional water flooding stage.

Integrated Modelling and Reservoir Characterization of Ataga Field, Niger Delta Basin, Nigeria

Integrated modelling, well correlation and petrophysical analysis were performed to characterize the reservoirs for optimum hydrocarbon correlation using 3-D seismic reflection data and suites of well logs from Ataga 5, 7, 10 and 11 wells respectively in Ataga field, shallow offshore, Niger Delta Basin, Nigeria. The study revealed the presence of two viable hydrocarbon bearing reservoirs, AT1 and AT2 and the average values of porosity, permeability, water saturation, hydrocarbon saturation, Net to Gross (NTG) and volume of shale are in the ranges of 15% - 77%, 44.5% - 75.5%, 25.5% - 85%, 15% - 75.5%, 0.70 - 0.88 and 0.11 - 0.38 respectively which goes further to show that the both reservoirs have fair characteristics that are suggestive of the presence of hydrocarbon accumulation. It can therefore be deduced that the permeability values are reflective of fair interconnectivity of pore spaces of sands within the well areas and their ability to transmit fluids, the depth and depth structural map generated for the horizons and structures shows that the most dominant trapping mechanism in the area under study is the crescentic growth fault and the rollover anticlines trending in the Northwest-Southeast direction and from the volumetric analysis. It can be deduced that the recoverable gas for AT1 and AT2 reservoirs is 2 × 106 mscf and 6 × 106 mscf respectively.

Study on Geological Genesis and Sedimentary Model of Complex Low Resistivity Reservoir in Offshore Oilfield — A Case of NgIII Formation of X Oilfield in Bohai Sea

In order to study the micro genetic mechanism and main geological controlling factors of low resistivity reservoir in NgIII formation of X oilfield in Bohai sea in China, the clay mineral composition, irreducible water saturation, salinity and conductive minerals of low resistivity reservoir were studied by using the data of core, cast thin section and analysis, and compared with normal resistivity reservoir. At the same time, the control effect of sedimentary environment on low resistivity reservoir was discussed. The results show that the additional conductivity of high bound water content and high montmorillonite content in the reservoir together leads to the significant reduction of reservoir resistivity, which is the main microscopic cause of the formation of low resistance, and is mainly controlled by the sedimentary background such as paleoclimate and sedimentary cycle. During the deposition period of NgIII formation, the paleoclimate was dry and cold, and it was at the end of the water advance of the medium-term sedimentary cycle. The hydrodynamic force of the river channel was weak, the carrying capacity of the riverbed was weak, and the river channel swayed frequently, resulting in fine lithologic particle size, high shale content and complex pore structure of the reservoir, resulting in significant reduction of reservoir resistance. The research conclusion would have strong guiding significance for the development of low resistivity reservoirs in this area.

松辽盆地北部基岩储层有效性评价技术

针对松辽盆地北部基岩岩性复杂、储层致密、裂缝发育以及储层参数计算精度低、储层有效性评价难等问题,提出“原岩+成分+结构”的三维岩性识别新方法;利用声波-密度交会图计算斜率M,利用中子-密度交会图计算斜率N,建立了基于M、N的变骨架密度有效孔隙度模型;通过研究基岩导电机理,校正裂缝附加导电性,建立了含裂缝储层含气饱和度模型;综合考虑有效孔隙度、次生孔隙度及裂缝发育程度,确定了基岩储层有效厚度标准及有效储层分类标准。应用结果表明:该套技术岩性解释符合率可达87.5%,气层识别符合率达88.5%,孔隙度、饱和度计算精度满足储量规范要求。研究结果可为松辽盆地北部基岩储层地质勘探及储量评价提供技术保障。

三轴应力下CO_(2)置换开采天然气水合物实验研究

为模拟海域真实环境,在三轴应力、氯化钠体系以及水合物储层富水状态的条件下,开展针对氯化钠体系、储层初始饱和度以及置换压应力对液态CO_(2)置换开采海域天然气水合物的实验。研究表明:在三轴应力以及孔隙度约46.70%的条件下,氯化钠体系对CH4置换效率影响较小,但对CO_(2)水合物合成表现出抑制作用;储层初始饱和度与CH4置换效率之间是负相关关系且高的储层含水率更有利于CO_(2)封存;CH4置换效率随着置换压应力的增长有一定幅度的提高,置换压应力的增大为CO_(2)水合物合成提供了高的驱动力,进而提高了CO_(2)封存效率。

胜利油区储层测井评价技术发展及展望

胜利油区油气资源丰富,储层类型众多,测井评价在勘探开发工作中发挥了重要的作用。值此建院60周年之际,系统回顾储层测井评价技术发展历程和特色技术,总结经验,展望未来,对于测井专业领域的发展和应用有着积极的意义。根据储层特点和评价难点,系统梳理了常规砂岩、复杂类型和非常规3种类型储层中形成的系列成熟测井评价技术。常规砂岩储层,系统地形成了适用性强的油层标准确定方法,创新了多层合试条件下的岩性、含油性下限约束的电性标准建立方法,开创性地提出了依据不同成岩带划分的储层参数解释技术;复杂类型储层,先后形成了陡坡带砂砾岩岩性测井识别、低渗透砂岩储层有效性评价、低电阻率油层识别及评价等技术;非常规储层,以评价储集性和含油性为主要目的,初步形成了基于二维核磁共振实验的储层参数测井评价技术。这些不同类型储层测井评价技术,都体现了井筒资料与地质认识的结合、岩石物理与测井模型的综合,展现了测井为地质、为油藏服务的能力,并取得了良好的应用效果。展望未来,剩余资源主要分布在隐蔽油气藏及深层,为满足勘探开发的发展和需求,有必要加强实验资料、气测录井和测试生产资料的分析,加强测井评价与地质结合,加强随钻测井、成像、核磁等测井新技术的应用,开展综合研究与评价,从评价目标上拓展产层性质评价和产量预测,从研究手段上,在常规技术的基础上,充分依托专家经验做好样本选取,深化大数据人工智能应用,一定会取得良好效果。

CO_(2)-EOR过程中油藏储层构造封存能力的模拟

为应对日益严峻的能源危机和温室效应,CO_(2)提高采收率技术脱颖而出,因此CO_(2)提高采收率后的地质封存安全性和相应的封存能力评估引起了广泛关注。借助数值模拟方法,基于吉林油田某区块油藏的实际储层条件,构建了注入CO_(2)含量为10%~90%的9个模型,分别探究了含水饱和度为30%,50%和90%以及储层压力为10 MPa,20 MPa和30 MPa时油藏各相组分的分布规律;基于前人对封存CO_(2)安全储存状态划分的研究,最终明确了CO_(2)的安全封存量。结果表明:1)当含水饱和度(30%)和压力(10 MPa)一定时,增加CO_(2)含量(10%~90%)可大幅提高CO_(2)的有效封存体积分数(26%~93%);2)压力的提升(10~30 MPa)促进了CO_(2)在油相中的溶解,从而略微降低了储层的封存能力(18%~7%);3)含水饱和度对储层封存CO_(2)的能力的影响微乎其微。该研究旨在阐明不同条件下CO_(2)的构造埋存量,为相关研究提供借鉴。

原油中饱和烃化合物在稠油火驱室内实验中的指示作用

稠油油藏开发中,火驱是否实现高温氧化已经成为评价开发效果的难点之一。为了认清火驱后原油性质的微观变化特征,借助室内物理模型开展稠油火驱实验,并采用气相色谱-质谱(GC-MS)技术对火驱前后的原油开展饱和烃方面的研究。研究表明:火驱后由于原油中饱和烃组分含量增加,造成轻重比(ΣnC_(21-)/ΣnC_(22+))变大,而Pr/nC17、Ph/nC18降低,Pr/Ph比值和OEP值基本不变;甾烷系列化合物的分布特征和含量变化是判断火驱高温氧化的良好指标,热稳定性较好的孕甾烷和升孕甾烷含量增加明显,甾烷异构化参数C_(29)(ββ)/(αα+ββ)和C_(29)(20S)/(20S+20R)基本保持不变;萜烷系列的三环萜烷/藿烷比值在火驱后增加了近2倍,反映热演化程度的C_(31)(22S)/(22S+22R)比值变化不大;β-胡萝卜烷与γ-胡萝卜烷是判断火驱高温氧化的良好指标,火驱后胡萝卜烷含量大幅降低。因此,通过原油中饱和烃化合物的变化趋势、分布特征、含量变化可有效进行火驱高温氧化的评判,可为稠油火驱开发高温氧化燃烧状态的识别提供有力支持。

Rock physics modeling of heterogeneous carbonatereservoirs： porosity estimation and hydrocarbon detection

In heterogeneous natural gas reservoirs, gas is generally present as small patch-like pockets embedded in the water-saturated host matrix. This type of heterogeneity, alsocalled ＂patchy saturation＂, causes significant seismic velocity dispersion and attenuation. Toestablish the relation between seismic response and type of fluids, we designed a rock physicsmodel for carbonates. First, we performed CT scanning and analysis of the fluid distributionin the partially saturated rocks. Then, we predicted the quantitative relation between the waveresponse at different frequency ranges and the basic lithological properties and pore fluids.A rock physics template was constructed based on thin section analysis of pore structuresand seismic inversion. This approach was applied to the limestone gas reservoirs of the rightbank block of the Amu Darya River. Based on poststack wave impedance and prestack elasticparameter inversions, the seismic data were used to estimate rock porosity and gas saturation.The model results were in ~ood a^reement with the production regime of the wells.

准噶尔盆地玛湖斜坡八道湾组低含油饱和度油藏地球化学特征分析

准噶尔盆地玛湖凹陷斜坡中浅层发现了侏罗系八道湾组低含油饱和度油藏,但是老井试油后产量不一,油藏“甜点”识别困难。为此,利用油气地球化学参数,对八道湾组油藏地球化学特征进行研究。结果表明:八道湾组低含油饱和度油藏原油的生物标志化合物特征对分析原油特点和原油成因具有显著的表征意义,原油普遍具有β-胡萝卜烷和γ-蜡烷丰度高的特征,为典型二叠系风城组烃源岩的产物。其中,低产井原油的γ-蜡烷丰度相对偏低,Ts/Tm较大;高产井原油的γ-蜡烷丰度较高,Ts/Tm偏小,色层效应是造成原油间生物标志化合物差异的主要原因。综合分析认为,断裂沟通方式及油藏充注过程影响了油气的聚集程度,晚期构造掀斜调整形成的八道湾组低含油饱和度油藏更具有勘探潜力。研究结果可为玛湖凹陷下一步勘探开发提供思路和方向。

CO_(2)-C_(2)H_(6)吞吐提高致密油藏采收率实验研究

注CO_(2)已经成为致密油藏提高采收率的重要手段之一,相较于纯CO_(2),部分烃类气体对原油的降黏及混相能力更强。为此,通过高温高压PVT实验研究了CO_(2)及复合气体(CO_(2)-C_(2)H_(6))-原油的饱和压力及黏度的变化特征,并利用高温高压岩心吞吐实验揭示了不同气体介质、吞吐压力及吞吐轮次下原油动用程度。研究结果表明:复合气体中C_(2)H_(6)增强了气液两相混相能力,提高了CO_(2)降黏及溶解能力,原油流动性显著增加。复合气体中随着C_(2)H_(6)摩尔分数的增加,原油饱和压力由14.24 MPa增至18.02 MPa,提高了26.54%;原油黏度由23.68 mPa·s降至8.76 mPa·s。不同吞吐压力下复合气体(CO_(2)-C_(2)H_(6))的采收率提高效果均强于纯CO_(2)的,且吞吐压力在最小混相压力附近采收率提高程度高于其他吞吐压力。复合气体(CO_(2)-C_(2)H_(6))对孔隙半径为0.0001~0.001和0.01~1μm孔隙中的原油动用程度强于纯CO_(2)的。

察尔汗盐湖含钾盐储层介质渗流-溶解过程中物性参数变化特征研究

察尔汗盐湖低品位固体钾盐资源丰富,是我国钾盐工业可持续发展的重要后备资源。充分了解储卤层中钾盐矿物的溶解机理有助于提高资源开采的效率。本研究以察尔汗盐湖浅部储卤层中含有不同钾盐矿物的3种典型钻孔岩芯为研究对象,通过室内渗流溶解实验,开展储卤层中固体矿物的溶解效率、孔隙度以及渗透性变化特征模拟研究。室内渗流-溶解实验结果表明,3种储卤层中的钾盐矿物溶出率皆近100%,其中主要含光卤石的岩芯样品溶解速度最快,含钾石盐岩芯次之,含杂卤石岩芯最慢。实验过程中,溶解反应后的储卤层固相骨架皆未塌陷,表明饱和NaCl卤水起到了很好的保护作用。由于石盐析出和不溶矿物的运移堵塞,3种岩芯的孔隙度皆降低,其中含光卤石岩芯孔隙度降低了26%,含钾石盐岩芯孔隙度降低了20%,含杂卤石岩芯孔隙度降低了32%。受控于盐类矿物溶解、石盐的析出和不溶矿物的运移堵塞,各储卤层岩芯渗透性降低幅度为40%~70%,降幅显著。

致密砂岩储层孔隙结构特征对可动流体赋存的影响:以鄂尔多斯盆地庆城地区长7段为例

分析孔隙结构和可动流体分布特征是储层研究的关键要素,也是当前研究的重点与热点,对致密砂岩油气勘探及提高油气采收率具有重要意义。以鄂尔多斯盆地庆城地区长7段致密砂岩储层为例,通过物性测试、铸体薄片、扫描电镜、高压压汞和核磁共振实验,结合分形理论,分析了致密砂岩储层孔隙结构、非均质性和可动流体分布特征,讨论了孔喉结构和非均质性对可动流体赋存的影响。结果表明:研究区长7段储层储集空间主要由微纳米级孔隙贡献,孔隙连通性较差,孔喉半径主要分布在0.050~0.500μm;孔喉结构非均质性较强,分形维数分布在2.65~2.90;流体可动性较差,可动流体饱和度分布在16.68%~51.74%,可动流体多分布在中孔和小孔内。研究区长7段储层可分为3类:从Ⅰ类到Ⅲ类储层,剩余粒间孔和粒间溶蚀孔发育变少,孔隙连通性变差,孔喉尺寸变小,较大孔喉变少,非均质性变强,流体可动性变差,中孔和大孔内可动流体含量趋于降低,可动流体倾向于在小孔内赋存。研究成果为致密砂岩油气勘探及油气采收率提高提供了理论依据。